/*
Copyright (C) 2003 Rice1964

This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
*/

#ifndef _GENERAL_COMBINER_H_
#define _GENERAL_COMBINER_H_

class GeneralCombineStage
{
public:
	StageOperate	colorOp;
	StageOperate	alphaOp;
	uint32			dwTexture;	//Which texture to apply, 0 or 1
	bool			bTextureUsed;	
	
	BOOL operator!=(const GeneralCombineStage & cs) const { return !(operator==(cs)); }
	BOOL operator==(const GeneralCombineStage & cs) const 
	{
		return (
			cs.colorOp.Arg1 == colorOp.Arg1 &&
			cs.colorOp.Arg2 == colorOp.Arg2 &&
			cs.colorOp.Arg0 == colorOp.Arg0 &&
			cs.alphaOp.Arg1 == alphaOp.Arg1 &&
			cs.alphaOp.Arg2 == alphaOp.Arg2 &&
			cs.alphaOp.Arg0 == alphaOp.Arg0 &&
			cs.colorOp.op == colorOp.op &&
			cs.alphaOp.op == alphaOp.op &&
			cs.dwTexture == dwTexture&&
			cs.bTextureUsed==bTextureUsed);
	}
};	

class GeneralCombinerInfo
{
public:
	uint32		muxDWords[4];	// Simplified Mux
	uint32		dwMux0;
	uint32		dwMux1;
	LONG		nStages;
	
	BlendingFunc  blendingFunc;
	uint32		TFactor;
	uint32		m_dwShadeColorChannelFlag;
	uint32		m_dwShadeAlphaChannelFlag;
	uint32		specularPostOp;
	uint32		colorTextureFlag[2];		
	
	GeneralCombineStage stages[8];

	bool		bResultIsGoodWithinStages;
	
	BOOL operator!=(const GeneralCombinerInfo & sci) const { return !(operator==(sci)); }
	BOOL operator==(const GeneralCombinerInfo & sci) const 
	{
		LONG i;
		
		if (sci.nStages != nStages)
			return FALSE;
		if (sci.blendingFunc != blendingFunc)
			return FALSE;
		
		for (i = 0; i < nStages; i++)
		{
			if (sci.stages[i] != stages[i])
				return FALSE;
		}

		if( sci.TFactor != TFactor )
			return FALSE;
		if( sci.specularPostOp != specularPostOp )
			return FALSE;
		if( sci.m_dwShadeColorChannelFlag != m_dwShadeColorChannelFlag )
			return FALSE;
		if( sci.m_dwShadeAlphaChannelFlag != m_dwShadeAlphaChannelFlag )
			return FALSE;
		if( sci.colorTextureFlag[0] != colorTextureFlag[0] )
			return FALSE;
		if( sci.colorTextureFlag[1] != colorTextureFlag[1] )
			return FALSE;

		return TRUE;
	}
};

enum CombinerOp
{
	CM_REPLACE,
	CM_MODULATE,
	CM_ADD,
	CM_SUBTRACT,
	CM_INTERPOLATE,			// == LERP in DirectX, INTERPOLATE = OpenGL

	CM_ADDSMOOTH,			// For DirectX only, for OpenGL, use INTERPOLATE
	CM_BLENDCURRENTALPHA,	// For DirectX only, for OpenGL, use INTERPOLATE
	CM_BLENDDIFFUSEALPHA,	// For DirectX only, for OpenGL, use INTERPOLATE
	CM_BLENDFACTORALPHA,	// For DirectX only, for OpenGL, use INTERPOLATE
	CM_BLENDTEXTUREALPHA,	// For DirectX only, for OpenGL, use INTERPOLATE
	CM_MULTIPLYADD,			// For DirectX only
};

#define CM_IGNORE ~0
#define CM_IGNORE_BYTE 0xFF

/************************************************************************/
/* This general combiner class is designed for general DirectX combiner */
/* and OpenGL 1.2/1.3 combiner.	Such combiners have the following       */
/* limitions and conditions:                                            */
/*                                                                      */
/*	- Supporting at least 2 textures                                    */
/*	- Supporting at least 2 combiner stages                             */
/*	- At each combiner stages, only 1 texture can be used               */
/*	- Supporting only 1 constant color                                  */
/*	- Supporting more or less texture combine operations, depending     */
/*	  on devices caps                                                   */
/*	                                                                    */
/*	Before using this class, device caps boolean flags must be set      */
/*	externally by owner of the class object (or a subclass object).     */
/*	                                                                    */
/*	                                                                    */
/************************************************************************/
class CGeneralCombiner
{
protected:
	CGeneralCombiner();

	int FindCompiledMux();
	int ParseDecodedMux();
	void ParseDecodedMuxForConstants(GeneralCombinerInfo &res);
	int SaveParserResult(GeneralCombinerInfo &result);

	int			m_lastGeneralIndex;
	DecodedMux	**m_ppGeneralDecodedMux;
	
	/*
	 *	Texture ops flags
	 */

	bool m_bTxtOpAdd;
	bool m_bTxtOpSub;
	bool m_bTxtOpLerp;				// LERP is for DirectX, INTERPOLATE is for OpenGL

	bool m_bTxtOpAddSmooth;			// For DirectX only, for OpenGL, use INTERPOLATE
	bool m_bTxtOpBlendCurAlpha;		// For DirectX only, for OpenGL, use INTERPOLATE
	bool m_bTxtOpBlendDifAlpha;		// For DirectX only, for OpenGL, use INTERPOLATE
	bool m_bTxtOpBlendFacAlpha;		// For DirectX only, for OpenGL, use INTERPOLATE
	bool m_bTxtOpBlendTxtAlpha;		// For DirectX only, for OpenGL, use INTERPOLATE
	bool m_bTxtOpMulAdd;			// For DirectX only

	int	 m_dwGeneralMaxStages;

	std::vector<GeneralCombinerInfo> m_vCompiledCombinerStages;

protected:
	// combiner info generating functions
	void	GenCI_Init(GeneralCombinerInfo &ci);
	void	SkipStage(StageOperate &op, int &curStage);
	void	NextStage(int &curStage);
	void	Check1TxtrForAlpha(int curN64Stage, int &curStage, GeneralCombinerInfo &ci, int tex);
	int		Check2TxtrForAlpha(int curN64Stage, int &curStage, GeneralCombinerInfo &ci, int tex1, int tex2);
	int		CheckWhichTexToUseInThisStage(int curN64Stage, int curStage, GeneralCombinerInfo &ci);

	int		GenCI_Type_D(int curN64Stage, int curStage, GeneralCombinerInfo &ci);
	int		GenCI_Type_A_MOD_C(int curN64Stage, int curStage, GeneralCombinerInfo &ci, uint32 dxop=CM_MODULATE);
	int		GenCI_Type_A_ADD_D(int curN64Stage, int curStage, GeneralCombinerInfo &ci);
	int		GenCI_Type_A_SUB_B(int curN64Stage, int curStage, GeneralCombinerInfo &ci);
	int		GenCI_Type_A_LERP_B_C(int curN64Stage, int curStage, GeneralCombinerInfo &ci);
	int		GenCI_Type_A_MOD_C_ADD_D(int curN64Stage, int curStage, GeneralCombinerInfo &ci);
	int		GenCI_Type_A_SUB_B_ADD_D(int curN64Stage, int curStage, GeneralCombinerInfo &ci);
	int		GenCI_Type_A_SUB_B_MOD_C(int curN64Stage, int curStage, GeneralCombinerInfo &ci);
	int		GenCI_Type_A_ADD_B_MOD_C(int curN64Stage, int curStage, GeneralCombinerInfo &ci);
	int		GenCI_Type_A_B_C_D(int curN64Stage, int curStage, GeneralCombinerInfo &ci);
	int		GenCI_Type_A_B_C_A(int curN64Stage, int curStage, GeneralCombinerInfo &ci);


	// New functions, generate stages within the stage limition
	// And return the number of stages used
	// channel = 0	for color channel
	// channel = 1  for alpha channel
	// checktexture = true, need to use if texture matching in the stage
	// checktexture = false, no check, just use any texture in the stage (since this stage hasn't been used)
	int		LM_GenCI_Type_D(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	int		LM_GenCI_Type_A_MOD_C(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci, uint32 dxop=CM_MODULATE);
	int		LM_GenCI_Type_A_ADD_D(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	int		LM_GenCI_Type_A_SUB_B(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	int		LM_GenCI_Type_A_LERP_B_C(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	int		LM_GenCI_Type_A_MOD_C_ADD_D(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	int		LM_GenCI_Type_A_SUB_B_ADD_D(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	int		LM_GenCI_Type_A_SUB_B_MOD_C(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	int		LM_GenCI_Type_A_ADD_B_MOD_C(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	int		LM_GenCI_Type_A_B_C_D(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	int		LM_GenCI_Type_A_B_C_A(N64CombinerType &m, int curStage, int limit, int channel, bool checktexture, GeneralCombinerInfo &ci);
	void	LM_GenCI_Init(GeneralCombinerInfo &ci);
	int		LM_ParseDecodedMux();
	bool	LM_Check1TxtrForAlpha(int curStage, GeneralCombinerInfo &ci, uint32 val);
	void	LM_SkipStage(StageOperate &op);


	bool	IsTextureUsedInStage(GeneralCombineStage &stage);

#ifdef _DEBUG
	void General_DisplayBlendingStageInfo(GeneralCombinerInfo &ci);
#endif

};

#endif

